吴建强 - 中国科学院昆明植物研究所 -

个人简介

1995年大连理工大学化工学院，无机化工，学士 1998年中科院大连化学物理研究所，分析化学，硕士 1998年9月-2001年8月，中科院大连化学物理研究所，现代分析中心，工作 2001年9月-2007年11月，德国马普化学生态研究所，博士 2007年1月-2012年4月，德国马普化学生态研究所，课题负责人(Group Leader) 2012年4月- 至今，中国科学院昆明植物研究所，课题组长，研究员（博导）

研究领域

1.植物与昆虫相互作用：以玉米为主要模型，使用现代分子生物学、遗传学与分析化学的方法，研究玉米识别和响应昆虫取食的抗虫信号传导分子机制。 2.植物与寄生植物的相互作用：研究寄主植物（菟丝子、列当）与寄生植物间物质和信号交流及其生理生态效应，寄生植物寻找寄主、产生吸器、建立寄生关系等的分子机理，以及寄生植物基因组的进化机制

近期论文

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1. Liu, N., Shen, G., Xu Y., Liu, H., Zhang, J., Li, S., Li, J., Zhang, C., Qi, J., Wang, L., Wu, J.* (2019) Extensive inter-plant protein transfer between Cuscuta parasites and their host plants. Molecular Plant (in press) 2. Malook, S., Qi, J., Hettenhausen, C., Xu, Y., Zhang, C., Zhang, J., Lu, C., Li, J., Wang, L., Wu, J.* (2019) The oriental armyworm (Mythimna separata) feeding induces systemic defense responses within and between maize leaves. Philosophical Transactions of the Royal Society B 374: 20180307 3. Sun, G. #, Xu, Y. #, Liu, H. #, Sun, T., Zhang, J., Hettenhausen, C., Shen, G., Qi, J., Qin, Y., Li, J., Wang, L., Chang, W., Guo, Z., Baldwin, I.T., Wu, J.* (2018) Large-scale gene losses underlie the genome evolution of parasitic plant Cuscuta australis. Nature Communications 9:2683. 4. Zhuang, H., Li, J., Song, J., Hettenhausen, C., Schuman, M., Sun, G., Zhang, C., Li, J., Song, D., Wu, J.* (2018) Aphid (Myzus persicae) feeding on the parasitic plant dodder (Cuscuta australis) activates defense responses in both the parasite and soybean host. New Phytologist 218: 1586-1596. 5. Hettenhausen, C.#, Li, J. #, Zhuang, H., Sun, H., Xu, Y., Qi, J., Zhang, J., Lei, Y., Qin, Y., Sun, G., Wang, L., Baldwin, I.T., Wu, J.* (2017) The stem parasitic plant Cuscuta australis (dodder) transfers herbivory-induced signals among plants. Proceedings of National Academy of Sciences of the USA 114: E6703-E6709. 6. Qi, J., Sun, G., Wang, L., Zhao, C., Hettenhausen, C., Schuman, M.C., Baldwin, I.T., Li, J., Song, J., Liu, Z., Xu, G., Lu, X., Wu, J.* (2016) Oral secretions from Mythimna separata insects specifically induce defense responses in maize as revealed by high-dimensional biological data. Plant Cell & Environment 39, 1749-1766. 7. Hettenhausen, C., Baldwin, I.T., Wu, J.* (2013) Nicotiana attenuata MPK4 suppresses a novel JA signaling-independent defense pathway against the specialist insect Manduca sexta but is not required for the resistance to the generalist Spodoptera littoralis. New Phytologist 199, 787-99. 8. Heinrich, M., Hettenhausen, C., Lange, T., Wünsche, H., Fang, J., Baldwin, I.T., Wu, J.* (2013) High levels of jasmonic acid antagonize the biosynthesis of gibberellins and inhibit the growth of Nicotiana attenuata stems. Plant Journal 73, 591-606 9. Yang, D.H., Hettenhausen, C., Baldwin, I.T., Wu, J.* (2012) Silencing Nicotiana attenuata calcium-dependent protein kinases, CDPK4 and CDPK5, strongly upregulates wound- and herbivory-induced jasmonic acid accumulations. Plant Physiology 159, 1591-607 10. Hettenhausen, C., Baldwin, I.T., Wu, J.* (2012) Silencing MPK4 in Nicotiana attenuata enhances photosynthesis and seed production but compromises abscisic acid-induced stomatal closure and guard cell-mediated resistance to Pseudomonas syringae pv. tomato DC3000. Plant Physiology 158, 759-76